Abstract
Bacterial cytokinesis is mediated by the Z-ring, which is formed by the prokaryotic tubulin homolog FtsZ. Recent data indicate that the Z-ring is composed of small patches of FtsZ protofilaments that travel around the bacterial cell by treadmilling. Treadmilling involves a switch from a relaxed (R) state, favored for monomers, to a tense (T) conformation, which is favored upon association into filaments. The R conformation has been observed in numerous monomeric FtsZ crystal structures and the T conformation in Staphylococcus aureus FtsZ crystallized as assembled filaments. However, while Escherichia coli has served as a main model system for the study of the Z-ring and the associated divisome, a structure has not yet been reported for E. coli FtsZ. To address this gap, structures were determined of the E. coli FtsZ mutant FtsZ(L178E) with GDP and GTP bound to 1.35 and 1.40 Å resolution, respectively. The E. coli FtsZ(L178E) structures both crystallized as straight filaments with subunits in the R conformation. These high-resolution structures can be employed to facilitate experimental cell-division studies and their interpretation in E. coli.
Highlights
Cytokinesis, the process by which a cell divides into daughter cells, is essential for all life
Schumacher et al Escherichia coli FtsZ bound to GDP and GTP 95
96 Schumacher et al Escherichia coli FtsZ bound to GDP and GTP
Summary
Cytokinesis, the process by which a cell divides into daughter cells, is essential for all life. Bacteria accomplish this task by employing a multiprotein complex called the divisome. Recent work has shown that clusters of membrane-bound FtsZ move around the circumference of the cell by treadmilling, and that these moving patches carry with them the divisome cell-wall remodeling machinery (Strauss et al, 2012; Rowlett & Margolin, 2014; Bisson-Filho et al, 2017; Yang et al, 2017; Perez et al, 2019; Li et al, 2018; Soderstrom et al, 2019). FtsZ treadmilling has been visualized in vitro on supported lipid bilayers (Loose & Mitchison, 2014; Ramirez-Diaz et al, 2018)
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